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Optimal design and analyzing the techno-economic-environmental viability for different configurations of an autonomous hybrid power system

Montaser Abdelsattar, Abdelgayed Mesalam, Abdelrahman Fawzi, I. Hamdan

2024Electrical Engineering21 citationsDOIOpen Access PDF

Abstract

Abstract In the present day, there is widespread acceptance of autonomous hybrid power systems (AHPSs) that rely on renewable energy sources (RESs), owing to their minimal adverse effects on the environment. This paper evaluates and compares three various AHPS configurations comprising photovoltaic (PV) modules, wind turbines (WTs), batteries, and diesel generators (DGs), using a recent optimization approach. A new optimizer 'Dandelion-Optimizer' (DO) is applied to tackle design problems. Real-time meteorological data from Siwa Oasis in northwest Egypt was utilized to determine an optimum design of system components for the purpose of providing sustainable power to this remote region. The system configurations are effectively modelled and optimized to achieve the minimum cost of energy (COE), while also minimizing the loss of power supply probability (LPSP) and carbon dioxide (CO 2 ) emissions. As per the results, the last configuration (PV with both backup equipment) is the most optimal one in terms of the lowest cost, whereas the first configuration (PV and WT with both types of backup equipment) is the most optimal one with regards to the lowest carbon emissions.

Topics & Concepts

BackupPhotovoltaic systemRenewable energyAutomotive engineeringReliability engineeringWind powerPower (physics)Hybrid systemComputer scienceElectric power systemEngineeringEnvironmental scienceElectrical engineeringQuantum mechanicsMachine learningPhysicsDatabaseHybrid Renewable Energy SystemsElectric Vehicles and InfrastructureEnergy and Environment Impacts